CN202395293U - Double wire-arranging stands for wire cable production - Google Patents

Abstract

The utility model discloses double wire-arranging stands for wire cable production. The double wire-arranging strands comprise a wire-arranging stand A and a wire-arranging stand B which are arrayed forwards and backwards, wherein the wire-arranging stand A and the wire-arranging stand B form clearance fit and are provided with connection parts at the matching ends thereof, and a plurality of parallel wire slots are formed in the top surfaces and the bottom surfaces of the wire-arranging stand A and the wire-arranging stand B in a penetrating manner along the arraying directions of the wire-arranging stand A and the wire-arranging stand B. Compared with the prior art, another wire-arranging stand is added as a jig for machining wire cables on the basis of a single wire-arranging stand known for the public; the defects that core wires are easy to bend and deform during peeling, cutting, tinning and soldering of wire cables of 26AWG, 28AWG, 30AWG, 34AWG, 36AWG, 40AWG and 42AWG, and even wire cables having finer core wires and arrayed closer are solved at one stroke via the double wire-arranging stands; the core wires of the wire cables always keep straight, thus eliminating the quality problems of insufficient solder, missing solder, short circuit and the like occurring when terminals are connected; and automatic machining can be realized.

Description

Be used for the double coil holder that cable is made

Technical field

The utility model relates to the processing and fabricating of signal transmssion line (like HDMI, USB, DisplayPort etc.), refers in particular to a kind of double coil holder that cable is made that is used for.

Background technology

The existing data cable that is used to connect electronic installations such as notebook, digital camera, mobile phone all is made up of the number of metal heart yearn; When cable connects other electronic installation through terminal; At first need to remove the peel to the insulated hull of cable, then carry out heart yearn zinc-plated, utilize manual welding or pulse welding equipment that the cable heart yearn is welded on the terminal after technology such as cutting.Along with the IT industry product develops towards " frivolous, short and small " day by day, simultaneously to functional requirement

From strength to strength; All spare parts also must be done ultra-fine and small processing thus; The used cable of data wire also becomes thinner 34AWG, 36AWG, 40AWG, 42AWG by 28AWG (U.S.'s wire gauge), 30AWG, is removing the peel, cuts, causing terminal rosin joint to occur, leaks bad qualities such as weldering and short circuit because of heart yearn bending and distortion easily during zinc-plated, welding.

Obviously, the traditional hand processing technology can't satisfy the processing of present tiny cable, and production efficiency, product quality are low.

The utility model content

The purpose of the utility model is to overcome the processing difficult problem of present tiny cable, good solution cable remove the peel, cut, flexible and distortion causes terminal rosin joint to occur, leaks quality problem such as weldering and short circuit because of heart yearn during zinc-plated, welding.

To achieve these goals, the utility model provides a kind of double coil holder that cable is made that is used for, and it comprises tandem A creel stand and B creel stand, A creel stand and B creel stand matched in clearance, and both abutting ends have connecting portion; The end face of A creel stand and B creel stand and bottom surface are provided with some parallel wire casings along what both orientation connected.

Optional, a connecting portion is respectively established in A creel stand and B creel stand abutting end both sides.

Optional, two connecting portions are respectively established in A creel stand and B creel stand abutting end both sides.

Optional, the gap of A creel stand and B creel stand abutting end end face and bottom surface connects fully.

Optional, the gap of A creel stand and B creel stand abutting end end face and bottom surface does not connect fully.

Optional, between A creel stand and the B creel stand, be provided with the connecting portion that traverses end face along its counterface.

Optional, A creel stand and B creel stand are one-body molded, and described connecting portion is integrated with it cylinder.Optional, A creel stand and B creel stand are processed respectively, and described connecting portion is plug and a socket of being located at both abutting ends respectively.

Optional, the end face of A creel stand and B creel stand is respectively equipped with the draw-in groove with the wire casing quadrature.

Further, the bottom surface of creel stand and B creel stand also is provided with some parallel wire casings along what both orientation connected.

Further, the bottom surface of A creel stand and B creel stand also is respectively equipped with the draw-in groove with the wire casing quadrature.

When the utility model is used for the cable making, can adopt following step:

(1) remove the crust of cable, expose heart yearn, heart yearn is arranged in regular turn and fixed one by one in the wire casing of A creel stand and B creel stand through its insulated hull, make on A creel stand and the B creel stand and between heart yearn straight;

(2) with the gap of B creel stand the insulated hull ring cutting of heart yearn is gone out just to reach the otch of inner lead along the A creel stand;

(3) connecting portion between disconnection A creel stand and the B creel stand along the axial withdrawal A creel stand and the B creel stand of heart yearn, makes the insulated hull of heart yearn transferred to and expose inner lead by the B creel stand along otch;

(4) zinc-plated to the exposed lead of heart yearn between A creel stand and the B creel stand;

(5) block the exposed lead of heart yearn between A creel stand and the B creel stand according to required weld length, abandon or reclaim the B creel stand;

(6) lead that the heart yearn of A creel stand and reservation is exposed is with adaptive terminal grafting and weld.

In the above-mentioned technology owing to all adopted A creel stand and B creel stand that the heart yearn stretching of cable is straight to step (4) in step (1), can effectively solve cable remove the peel, cut, the flexible and difficult problem of being out of shape of heart yearn when zinc-plated; And the heart yearn of cable being carried out walkthrough line and location through A creel stand and B creel stand, the arrangement pitches that obviously also can directly make heart yearn accurately cooperates with solder joint on the adaptive terminal, so inserting terminal all can be realized automated job with welding in the step (6).

Because dissimilar terminal; The heart yearn of cable possibly be arranged in single; Also possibly be arranged in double, so heart yearn or become the single face of single fixing in the step (1), or become the double two sides that fixes respectively at A creel stand and B creel stand at A creel stand and B creel stand.

Compare with prior art; The present invention has set up the tool of another creel stand as cable processing on the basis of known single coil holder; 26AWG, 28AWG, 30AWG, 32AWG, 34AWG, 36AWG, 40AWG, 42AWG have been solved at one stroke through double coil holder; Even heart yearn is more tiny, arrange cable more closely remove the peel, cut, the defective of and distortion flexible during zinc-plated, welding because of heart yearn; The heart yearn of cable remains straight, and quality problem such as the rosin joint that has occurred when having eliminated splicing ear, leakage weldering and short circuit can realize automation processing.

Description of drawings

Fig. 1 is the structural representation of first kind of execution mode of the utility model.

Fig. 2 is the structural representation of second kind of execution mode of the utility model.

Fig. 3 is the structural representation of the third execution mode of the utility model.

Fig. 4 is the structural representation of the 4th kind of execution mode of the utility model.

Fig. 5 is the structural representation of the 5th kind of execution mode of the utility model.

Fig. 6 is the structural representation of the 6th kind of execution mode of the utility model.

Fig. 7 is the structural representation of the 7th kind of execution mode of the utility model.

Fig. 8 is the structural representation of the 8th kind of execution mode of the utility model.

Fig. 9 is the structural representation of the 9th kind of execution mode of the utility model.

Figure 10 is the structural representation of the tenth kind of execution mode of the utility model.

Figure 11 is the structural representation of the 11 kind of execution mode of the utility model.

Figure 12 is the structural representation of the 12 kind of execution mode of the utility model.

Figure 13 is the structural representation of the 13 kind of execution mode of the utility model.

Figure 14 is the STRUCTURE DECOMPOSITION figure of the 13 kind of execution mode of the utility model.

Figure 15 is the structural representation of the 14 kind of execution mode of the utility model.

Figure 16 is the STRUCTURE DECOMPOSITION figure of the 14 kind of execution mode of the utility model.

Figure 17 is the structural representation of the 15 kind of execution mode of the utility model.

Figure 18 is the structural representation of the 16 kind of execution mode of the utility model.

Figure 19 is the structural representation of the 17 kind of execution mode of the utility model.

Figure 20 is the STRUCTURE DECOMPOSITION figure of the 17 kind of execution mode of the utility model.

Figure 21 is the structural representation of the 18 kind of execution mode of the utility model.

Figure 22 is the STRUCTURE DECOMPOSITION figure of the 18 kind of execution mode of the utility model.

Figure 23 is the structural representation of the 19 kind of execution mode of the utility model.

Figure 24 is the structural representation of the 20 kind of execution mode of the utility model.

Figure 25 is the structural representation of the 21 kind of execution mode of the utility model.

Figure 26 is the STRUCTURE DECOMPOSITION figure of the 21 kind of execution mode of the utility model.

Figure 27 is the structural representation of the 22 kind of execution mode of the utility model.

Figure 28 is the structural representation of the 23 kind of execution mode of the utility model.

Figure 29 is the structural representation of the 24 kind of execution mode of the utility model.

Figure 30 is the operating state one of the 17 kind of execution mode of the utility model.

Figure 31 is the operating state two of the 17 kind of execution mode of the utility model.

Embodiment

Below in conjunction with Figure of description and embodiment the utility model is done further explanation.

As shown in Figure 1; Be first kind of execution mode of the utility model, wherein be used for the double coil holder that cable is made, comprise one-body molded, tandem A creel stand 1 and B creel stand 2; A creel stand 1 cooperates with B creel stand 2 gapped 6; Gap 6 runs through the end face and the bottom surface of coil holder fully, and the both sides of both abutting ends respectively establish two connecting portions 3, and described connecting portion 3 is integrated with it cylinders; The end face of A creel stand 1 and B creel stand 2 and bottom surface all are provided with some parallel wire casings 4 along what both orientation connected; The end face of A creel stand and B creel stand and bottom surface are respectively equipped with the draw-in groove 5 with wire casing 4 quadratures.

As shown in Figure 2, be second kind of execution mode of the utility model, its structure substantially with first kind of execution mode in consistent, different is that the end face and the bottom surface of A creel stand 1 and B creel stand 2 all are not provided with first kind of draw-in groove 5 in the execution mode.

As shown in Figure 3, be the third execution mode of the utility model, its structure substantially with first kind of execution mode in consistent, different is, A creel stand 1 and B creel stand 2 have only end face along both the orientation perforation be provided with some parallel wire casings 4; A creel stand and B creel stand have only end face to be provided with the draw-in groove 5 with wire casing 4 quadratures.

As shown in Figure 4, be the 4th kind of execution mode of the utility model, its structure is consistent with the third execution mode substantially, and different is that A creel stand 1 and B creel stand 2 end faces are not provided with the draw-in groove 5 with wire casing 4 quadratures.

As shown in Figure 5, be the 5th kind of execution mode of the utility model, its structure is consistent with the third execution mode substantially, and different is that the two ends of A creel stand 1 and B creel stand 2 only are provided with a connecting portion 3 respectively.

As shown in Figure 6, be the 6th kind of execution mode of the utility model, its structure is consistent with the 5th kind of execution mode substantially, and different is that A creel stand 1 and B creel stand 2 end faces are not provided with the draw-in groove with wire casing 4 quadratures.5

As shown in Figure 7, be the 7th kind of execution mode of the utility model, its structure is consistent with first kind of execution mode substantially, and different is that the two ends of A creel stand 1 and B creel stand 2 only are provided with a connecting portion 3.

As shown in Figure 8, be the 8th kind of execution mode of the utility model, its structure is consistent with the 7th kind of execution mode substantially, and different is that the end face of A creel stand 1 and B creel stand 2 and bottom surface are not provided with the draw-in groove 5 with wire casing 4 quadratures.

As shown in Figure 9, be the 9th kind of execution mode of the utility model, its structure is consistent with the 7th kind of execution mode substantially, and different is, and A creel stand 1 gap 6 partly that links to each other with B creel stand 2 does not run through the end face and the bottom surface of A creel stand 1 and B creel stand 2 fully.

Shown in figure 10, be the tenth kind of execution mode of the utility model, its structure is consistent with the 7th kind of execution mode substantially, and different is, and A creel stand 1 gap 6 partly that links to each other with B creel stand 2 does not run through the end face and the bottom surface of A creel stand 1 and B creel stand 2 fully.

Shown in figure 11, be the 11 kind of execution mode of the utility model, its structure is consistent with the 5th kind of execution mode substantially, and different is, and A creel stand 1 gap 6 partly that links to each other with B creel stand 2 does not run through the end face and the bottom surface of A creel stand 1 and B creel stand 2 fully.

Shown in figure 12, be the 12 kind of execution mode of the utility model, its structure is consistent with the 6th kind of execution mode substantially, and different is, and A creel stand 1 gap 6 partly that links to each other with B creel stand 2 does not run through the end face and the bottom surface of A creel stand 1 and B creel stand 2 fully.

Like Figure 13 and shown in Figure 14; Be the 13 kind of execution mode of the utility model; Comprise respectively process, tandem A creel stand 21 and B creel stand 22, A creel stand 21 cooperates with B creel stand 22 gapped 6, this gap 6 runs through the end face and the bottom surface of A creel stand 21 and B creel stand 22 fully; And a connecting portion 23 is respectively established in the both sides of both abutting ends, and described connecting portion 23 is plug 23a and the socket 23b that are located at both abutting ends respectively; The end face of A creel stand 21 and B creel stand 22 and bottom surface all are provided with some parallel wire casings 24 along what both orientation connected, and the end face of A creel stand 21 and B creel stand 22 and bottom surface also are respectively equipped with the draw-in groove 25 with wire casing 24 quadratures.

Like Figure 15 and shown in Figure 16; Be the 14 kind of execution mode of the utility model; Its structure is consistent with the 13 kind of execution mode substantially, and different is that the gap 6 between A creel stand 21 and the B creel stand 22 does not run through the end face and the bottom surface of A creel stand 21 and B creel stand 22 fully.

Shown in figure 17, be the 15 kind of execution mode of the utility model, its structure is consistent with the 13rd kind of execution mode substantially, and different is that the end face of A creel stand 21 and B creel stand 22 and bottom surface are not provided with the draw-in groove 25 with wire casing 24 quadratures.

Shown in figure 18; Be the 16 kind of execution mode of the utility model; Its structure is consistent with the 15 kind of execution mode substantially, and different is that the gap 6 between A creel stand 21 and the B creel stand 22 does not run through the end face and the bottom surface of A creel stand 21 and B creel stand 22 fully.

Like Figure 19 and shown in Figure 20; Be the 17 kind of execution mode of the utility model; Its structure substantially with the 13 kind of execution mode in consistent; Different is, only is provided with some parallel wire casings 24 at the end face of A creel stand 21 and B creel stand 22 along what both orientation connected, also only is respectively equipped with the draw-in groove 25 with wire casing 24 quadratures at the end face of A creel stand 21 and B creel stand 22.

Like Figure 21 and shown in Figure 22; Be the 18 kind of execution mode of the utility model; Its structure is consistent with the 17 kind of execution mode substantially, and different is that the gap 6 between A creel stand 21 and the B creel stand 22 does not run through the end face and the bottom surface of A creel stand 21 and B creel stand 22 fully.

Shown in figure 23, be the 19 kind of execution mode of the utility model, its structure is consistent with the 17 kind of execution mode substantially, and different is, is not provided with the draw-in groove 25 with wire casing 24 quadratures at the end face of A creel stand 21 and B creel stand 22

Shown in figure 24; Be the 20 kind of execution mode of the utility model; Its structure is consistent with the 19 kind of execution mode substantially, and different is that the gap 6 between A creel stand 21 and the B creel stand 22 does not run through the end face and the bottom surface of A creel stand 21 and B creel stand 22 fully.

Like Figure 25 and shown in Figure 26; Be the 21 kind of execution mode of the utility model; Its structure is consistent with the 13 kind of execution mode substantially, and different is that two connecting portions 23 are established at the two ends of A creel stand 21 and B creel stand 22; Only be provided with some parallel wire casings 24 along what both orientation connected, also only be respectively equipped with the draw-in groove 25 with wire casing 24 quadratures at the end face of A creel stand 21 and B creel stand 22 at the end face of A creel stand 21 and B creel stand 22.

Shown in figure 27, be the 22 kind of execution mode of the utility model, its structure is consistent with the 20 kind of execution mode substantially, and different is, is not provided with the draw-in groove 25 with wire casing 24 quadratures at the end face of A creel stand 21 and B creel stand 22.

Shown in figure 28, be the 23 kind of execution mode of the utility model, its structure is consistent with the 13 kind of execution mode substantially, and different is to be provided with two connecting portions 23 at the two ends of A creel stand 21 and B creel stand 22.

Shown in figure 29; Be the 24 kind of execution mode of the utility model; Its structure is consistent with the 13 kind of execution mode substantially; Different is, is provided with two connecting portions 23 at the two ends of A creel stand 21 and B creel stand 22, and is not provided with the draw-in groove 25 with wire casing 24 quadratures at the end face of A creel stand 21 and B creel stand 22.

With the 17 kind of execution mode is example, when the utility model is used for the cable making, can adopt following step:

(1) operating state one of the 17 kind of execution mode shown in figure 30; Remove the crust of cable 6 one ends; Expose heart yearn 7; Heart yearn 7 is arranged in regular turn and is fixed one by one in the wire casing 24 of A creel stand 21 and B creel stand 22 through its insulated hull, make on A creel stand 21 and the B creel stand 22 and between heart yearn 7 straight;

(2) operating state two shown in figure 31,6 use radium-shine insulated hull ring cutting with heart yearn 7 to go out the otch that just reaches inner lead together along the gap that connects fully between A creel stand 21 and the B creel stand 22;

(3) operating state two shown in figure 31, the gap along the axial withdrawal A creel stand 21 and the B creel stand 22 of heart yearn 7 makes the insulated hull of heart yearn 7 transferred to and expose inner lead along otch by B creel stand 22;

(4) zinc-plated to the exposed lead of heart yearn between A creel stand 21 and the B creel stand 22 7;

(5) block the lead that heart yearn 7 exposes between A creel stand 21 and the B creel stand 22 according to required weld length, abandon or reclaim B creel stand 22;

(6) A creel stand 21 and the heart yearn 7 exposed leads reserved are pegged graft with adaptive connector, and employing pulse soldering tip welds each heart yearn 7 simultaneously.

Because dissimilar connector; The heart yearn 7 of cable 6 possibly be arranged in single; Also possibly be arranged in doublely, so can select the A creel stand of adaptation and the execution mode of B creel stand in the step (1) for use, with heart yearn 7 or become the single face of single fixing at A creel stand and B creel stand; Or become double and fix respectively on the two sides of A creel stand and B creel stand, the heart yearn 7 that only shows cable 6 at Figure 19 in Figure 20 is arranged in single situation.

In the above-mentioned technology because it is straight all to have adopted A creel stand 21 and B creel stand 22 that the heart yearn 7 of cable 6 is stretched in step (1) to step (4), can effectively solve cable 6 remove the peel, cut, the flexible and difficult problem of being out of shape of heart yearn 7 when zinc-plated; And carry out walkthrough line and location through the heart yearn 7 of A creel stand 21 and 22 pairs of cables 6 of B creel stand; The arrangement pitches that obviously also can directly make heart yearn 7 accurately cooperates with solder joint on the adaptive connector, so the another benefit of the utility model is to be convenient to realize automated job.

For a person skilled in the art, can obtain other various corresponding changes and distortion according to structure and the principle that the utility model disclosed, and these all changes and distortion all belong to the protection category of the utility model.

Claims (9)

1. be used for the double coil holder that cable is made; It is characterized in that: comprise tandem A creel stand and B creel stand; The A creel stand cooperates with the B creel stand is gapped; Both abutting ends have connecting portion, and the end face of A creel stand and B creel stand is provided with some parallel wire casings along what both orientation connected.

2. the double coil holder that is used for the cable making according to claim 1, it is characterized in that: a connecting portion is respectively established in A creel stand and B creel stand abutting end both sides, and intermediate space runs through end face and bottom surface fully.

3. the double coil holder that is used for the cable making according to claim 1, it is characterized in that: two connecting portions are respectively established in A creel stand and B creel stand abutting end both sides, and intermediate space runs through end face and bottom surface fully.

4. the double coil holder that is used for the cable making according to claim 1, it is characterized in that: between A creel stand and the B creel stand, be provided with the connecting portion that traverses end face along its counterface, intermediate space does not connect end face and bottom surface fully.

5. the double coil holder that is used for the cable making according to claim 1, it is characterized in that: A creel stand and B creel stand are one-body molded, and described connecting portion is integrated with it cylinder.

6. the double coil holder that is used for the cable making according to claim 1, it is characterized in that: A creel stand and B creel stand are processed respectively, and described connecting portion is plug and a socket of being located at both abutting ends respectively.

7. the double coil holder that is used for the cable making according to claim 1, it is characterized in that: the end face of A creel stand and B creel stand is respectively equipped with the draw-in groove with the wire casing quadrature.

8. each describedly is used for double coil holder that cable is made according to claim 1 to 6, it is characterized in that: the bottom surface of A creel stand and B creel stand also along both the orientation perforation be provided with some parallel wire casings.

9. the double coil holder that is used for the cable making according to claim 7, it is characterized in that: the bottom surface of A creel stand and B creel stand also is respectively equipped with the draw-in groove with the wire casing quadrature.

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